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Publication numberUS2390320 A
Publication typeGrant
Publication dateDec 4, 1945
Filing dateDec 28, 1943
Priority dateDec 28, 1943
Publication numberUS 2390320 A, US 2390320A, US-A-2390320, US2390320 A, US2390320A
InventorsOverbeke John William
Original AssigneeSimmonds Aerocessories Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Pressure vessel
US 2390320 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

Patented Dec. 4, 1945 John William Overbeke, New York, N. Y., assignor to Simmonds Aeroccssories, Inc. of New York, New York, N. Y., a corporation of New York Application December 2a, 1943, Serial No. 515,934

' 6 Claims. (Cl. -13s- -3o) This invention relates to pressure jars or vesseis such as accumulators and surge relievers wherein a fluid is stored or pumped under pressure, and more particularly to such vesselshaving a novel fluidpassing' plug as a component General objects of the invention are to provide pressure vessels of the mentioned types having improved means for passing fluid in and out of their pressure shells.

Particular objects of this invention are to provide pressure accumulators, wherein the membrane may be subjected to high initial air pressures, which are equipped with an improved fluid passing port having a perforate plate of adequate area equipped with novel supporting means.

Another object of the invention is to provide animproved fluid passing plug having features of construction enabling it to be used to advantage in a high pressure fluid system,

Other objects of the invention will in part be obvious and will in part appear hereinafter.

The invention accordingly comprises the features of construction, combination of elements, and arrangement of parts, which will be exemplifled in the construction hereinafter set forth, and

liquid port with a force tending to extrude and harmfully pinch it, especially when the mem-' brane i made of rather soft gummy stock as is wanted for some services. Accordingly it is desirable to cover the liquid port with a perforate wall or plate having individually small orifices through which the membrane will not extrude. In order to cope with required fluid passing capacities, however, the aggregate number of such orifices should be suchas to require a plate of extensive area, which under the high pressures employed in accumulators, is subject to heavy bending strain.

One illustrative embodiment of an accumulator having a liquid passing plug with an orificed 'plate' of sufliciently extensive area to assure the scopeof which invention will be indicated in. the claims.

For a fuller understanding of the nature and objects ofthe invention reference should be had to the following detailed description taken in connection with the accompanying drawing, in which:

Fig. 1 is a vertical sectional view through a pressure accumulator, showing. the improved fluid passage of the present invention in one of it applications;

Fig. 2 isa plan view, on an enlarged scale, of

'a fluid passing plug embodying features of the invention,.part thereof being broken away; and

Fig. 3 is avertical sectional view along line 3-3 of Fig. 2. I

In the pressure accumulator type of vessel, as used on aircraft and elsewhere, there is usually a strong pressure shell having an internally disposed membrane separating the shell into an air and a liquid compartment. The hydraulic service line is connected with the liquid compartment, and air under pressure is forced into and trapped in the air compartment. The initial compression in the air compartment may be quite high, on the order of 600 p. s. i. when the membrane v is fully 1 expanded andthere is little orno liquid in the ready passage of fluid in and out of the service line and which at the same time is held against bending or crushing under membrane pressure is shown in the drawing-wherein I0 is steel accumulator shell of any suitable shape and type, being in this instance illustrated as of seamless spherical form. At one end the shell has a liquid passing opening ll, into which is fitted an oil plug l2, the features of which characterize the present invention.

Within the shell is an air containing membrane iii, of rubber or rubber-like compound adapted to be loaded through a check valve M with air under a high initial pressure so that the bottom of the bag-like membrane at [5 is forced against the oil plug l2 when there is no oil under pressure within the accumulator shell.

If desired such lower portion i 5 of the: membrane may be thickened or equipped with a protective added ply (not shown) to help prevent extrusion of the membrane stock outwardly through the plug orifices.

At the other end of the shell from the plug I2, is a wide mouth permitting entry of the plug l2 within the shell. Such mouth and closure means includin means for clamping and sealing the membrane in position are more fully described and specifically claimed in my copending appli cation Serial No. 515,933, flied December 28, 1943, and features of such mouth, membrane and closure are generically claimed in my copending ap-' plication, Serial No. 516,167, filed Dec. 30, 1943.

An accumulator similarly equipped with an oil plug having an enlarged head at one end and a wide mouthed opening at the other providing for assembly of such plug within the shell is shown and more broadly claimed in my copending application, Serial No. 515,932, filed Dec. 28, 1943.

As illustrated herein such a plug accommodating means comprises a thick walled mouth l8 which may be formed of hot spun metal accumulated during the shaping of the shell, within which is fitted a collar l'l. These parts together form a neck having a central opening l8, within which is slidably fitted a stopper l9, having an air passage therethrough within which a check valve i4 is fitted. The stopper H! has a flange 20 at its lower end opposing an inwardly directed surface 26 on the collar. The edge of the membrane is clamped between flange 20 and collar surface.

2 I, and is held under sealing pressures responsive to pressure within the accumulator shell; the stopper It] being outwardly slidable in the collar opening 18. A segmented locking ring 22 is adapted to have its several parts flttedln an ancase a plug need not be employed, or if used, may

nular groove in the mouth It, above the collar otherwise suitably fastened in this position.

The enlarged plug head carries a number of concentric supporting ribs 26, between which are disposed concentric oil passing channels 21. Such concentric channels are connected by radial channels 28, which interrupt the ribs 26 and lead to a central passage 29 through the plug body and-head. The outer end of such passage may be suitably threaded as shown, orotherwise prepared for connection with the hydraulic systern tubing.

A plate 3'0, containing a number of fluid passing orifices, is placed on and supported by the ribs 26, in which position it may be silver soldered or otherwise suitably attached to the head 25. The plate orifices are made small enough to avoid undue, extrusion of the rubber membrane stock therethrough and'the plate is made as thin as is consistent with the mechanical strength be in the form of a simple pipe or tubefltting.

Since certain changes may be made in the above construction and different embodiments of the invention could be made without departing from the scope thereof, it is intended that all matter contained in the above description or shown in the accompanying drawing shall be in-. terpreted as illustrative and not in a limiting sense.

It is also to be understood that the following claims are intended to cover all of the generic and specific features of the invention herein described, and all statements of the scope of the 1 invention which, as a matter of language, might be said to fall therebetween. Having described my invention, what I claim as new and desire to secure by Letters Patent, is:

1. In a fluid pressure vessel having an opening, a fluid passing plug in said opening having a hollow body and an enlarged head seated against the interior wall of said vessel, a sheet metal plate on said head having a plurality of orifices communicating with said hollow body, and means backing up said plate against outward bending. 2. In a fluid pressure vessel having a shell and an internally disposed membrane separating said shell into two fluid pressure compartments, a fluid passing plug in a wall of one of said compartm'ents having a central passage adapted to be connected with a pressure line, and an interiorly facing head subject to pressing contact with said membrane, said head having a sheet metal plate on its inner side having a plurality of uniformly distributed orifices cormnunicating with said central passage, and means backing up said plate against outward movement but leaving free 7 partments, and a plug having a body portion fitted into said opening, said body portion havingrequirement in a given installation, both because such stock has better orifice flow characteristics and because it is subject to more ready manufacture. Preferably the plate 30 is made of commercial perforate sheet metal stock of the kind used for filters or strainers and like purposes, which is economically available in many thicknesses and orifice arrangements. The aggregate number of orifices in the plate 30 is such that their liquid passing capacity under all service conditions at least equals and preferably well exceeds the liquid passing capacity of the passage 29 through the plug.

The arrangement of the supporting ribs and channels beneath the plate need not be concenmountin of the plate and its supporting ribs on a plug capable of assembly as a unit with the shell is desirable and preferred, some advantages of the invention may be obtained with, supporting ribs or posts integral with the shell walls a fluid passage therethrough for connection with outlet tubing, said plug also having an enlarged hollow head seated against the interior walls of said shell adjacent said opening, said head having an interiorly facing wall of greater area than the sectional area of said tubing against which wall said membrane intermittently presses, and said wall having a plurality of fluid passing orifices aggregating at least the fluid passing area of said tubing and individually small enough to prevent extrusion of said membrane to a harm-- ful degree, the interiorly facing wall on said head being in the form of a separate orifice bearing plate attached to the remainder of said plug.-

4. A pressure accumulator comprising a shell having an air opening at one end and a liquid opening at the other, a flexible membrane in said shell separating said openings, a hollow plug fitted through said liquid opening and having an enlarged head seated against the interior wall of said shell, said head having a separate plate attached across its inner face spanning the hollow part of said plug and having a plurality of liquid passing orifices leading thereto.

-5. A fluid passing plug for use in a pressure vessel of the kind described, including a head having a fluid passage adapted to communicate with a. supply tube on one side of said head, and

overwhich the plate 30 may be ailixed, in which having a supporting surface on its other side containing fluid channels depressed beneath said surface and communicating with said passage, and a sheet metal plate overlying and mating with said supporting surface and having a' plurality o1 fluid passing orifices communicating with said channels.

6. In a pressure accumulator comprising a. shell and a flexible membrane 'within said shell dividing it into fluid containing compartments, there being an opening in one compartment aflording. 10

sheet metal plate covering said opening and having a plurality of liquid passing orifices, and

supporting means around said opening and between said plate and shell terminating in a common plane against which said flat plate is backed against outward bending under pressure from said membrane.


Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2498366 *Jan 10, 1946Feb 21, 1950Greer Hydraulics IncAutomatic gauge valve
US2501804 *Aug 3, 1946Mar 28, 1950Fluor CorpHigh-temperature liquid pulsation dampener
US2550892 *Jan 26, 1944May 1, 1951Simone MercierPressure accumulator
US2874721 *Feb 23, 1956Feb 24, 1959Mercier JeanLiquid port for pressure accumulator
US2877801 *Nov 2, 1954Mar 17, 1959Greer Hydraulics IncClamping means for bladder of pressure accumulator
US3182685 *Dec 12, 1962May 11, 1965Mercier JeanClosure valve for the outlet port of a pressure vessel
US3251380 *Apr 12, 1963May 17, 1966Mercier JeanPressure vessels
US4201246 *Jul 20, 1978May 6, 1980Fichtel & Sachs AgPressure accumulator
US4347871 *May 4, 1978Sep 7, 1982Greer Hydraulics, Inc.Pressure accumulator with locking nut
US6860296Jun 27, 2002Mar 1, 2005Winston B. YoungHigh flow nozzle system for flow control in bladder surge tanks
US7472720Oct 30, 2006Jan 6, 2009Young Engineering & Manufacturing, Inc.High flow nozzle system for flow control in bladder surge tanks
US7690399Jan 2, 2009Apr 6, 2010Young Engineering & Manufacturing, Inc.High flow nozzle system for flow control in bladder surge tanks
US7950417 *Apr 6, 2010May 31, 2011Young Engineering & Manufacturing Inc.High flow nozzle system for flow control in bladder surge tanks
US8439081May 31, 2011May 14, 2013Young Engineering & Manufacturing, Inc.High flow nozzle system for flow control in bladder surge tanks
US20040173619 *Jul 24, 2001Sep 9, 2004Nobuyuki SugimuraPressurized container
US20050199306 *Feb 28, 2005Sep 15, 2005Young Winston B.High flow nozzle system for flow control in bladder surge tanks
US20080099093 *Oct 30, 2006May 1, 2008Young Winston BHigh flow nozzle system for flow control in bladder surge tanks
US20150240839 *Feb 20, 2015Aug 27, 2015Nhk Spring Co., Ltd.Accumulator
DE1171218B *Sep 7, 1955May 27, 1964Jean MercierDruckbehaelter, insbesondere Druckspeicher
DE1221061B *Apr 20, 1959Jul 14, 1966Applic Mach MotricesEinrichtung zum Daempfen von Druckstoessen in Fluessigkeitsleitungen mit einer ein Gasvolumen einschliessenden elastischen Blase
DE1227294B *Jan 14, 1964Oct 20, 1966Electricite De FranceSchwimmer, insbesondere fuer das Verlegen von Rohrleitungen in grosse Tiefen unter Wasser
EP0707173A1 *Oct 16, 1995Apr 17, 1996Binks Bullows LimitedSurge suppressor
EP1271040A2 *Jun 27, 2002Jan 2, 2003Young Engineering Manufacturing, Inc.High flow nozzle system for flow control in bladder surge tanks
U.S. Classification138/30
International ClassificationF15B1/00, F16L55/04, F15B1/18, F16L55/053, F16L55/052
Cooperative ClassificationF15B2201/3152, F16L55/052, F15B2201/205, F15B2201/4155, F15B2201/43, F16L55/053, F15B2201/41, F15B1/18
European ClassificationF16L55/053, F16L55/052, F15B1/18